spatcov | R Documentation |
Given a pixel image, calculate an estimate of the spatial covariance function. Given two pixel images, calculate an estimate of their spatial cross-covariance function.
spatcov(X, Y=X, ..., correlation=FALSE, isotropic = TRUE, clip = TRUE, pooling=TRUE)
X |
A pixel image (object of class |
Y |
Optional. Another pixel image. |
correlation |
Logical value specifying whether to standardise so that the spatial correlation function is returned. |
isotropic |
Logical value specifying whether to assume the covariance is isotropic, so that the result is a function of the lag distance. |
clip |
Logical value specifying whether to restrict the results to the range of spatial lags where the estimate is reliable. |
pooling |
Logical value specifying the estimation method when |
... |
Ignored. |
In normal usage, only the first argument X
is given.
Then the pixel image X
is treated as a realisation of a stationary
random field, and its spatial covariance function is estimated.
Alternatively if Y
is given,
then X
and Y
are assumed to be
jointly stationary random fields, and their spatial cross-covariance
function is estimated.
For any random field X
, the spatial covariance
is defined for any two spatial locations u and v by
C(u,v) = cov(X(u), X(v))
where X(u) and X(v) are the values of the random field at those locations. Herecov denotes the statistical covariance, defined for any random variables A and B by cov(A,B) = E(AB) - E(A) E(B) where E(A) denotes the expected value of A.
If the random field is assumed to be stationary (at least second-order stationary) then the spatial covariance C(u,v) depends only on the lag vector v-u:
C(u,v) = C_2(v-u)
C(u,v) = C2(v-u)
where C2 is a function of a single vector argument.
If the random field is stationary and isotropic, then the spatial covariance depends only on the lag distance ||v-u||:
C2(v-u) = C1(||v-u||)
where C1 is a function of distance.
The function spatcov
computes estimates of the
covariance function C1 or C2 as follows:
If isotropic=FALSE
, an estimate of the
covariance function C2 is computed,
assuming the random field is stationary, using the naive
moment estimator,
C2 = imcov(X-mean(X))/setcov(Window(X))
.
The result is a pixel image.
If isotropic=TRUE
(the default)
an estimate of the covariance function C1
is computed, assuming the random field is stationary and isotropic.
When pooling=FALSE
, the estimate of C1
is the rotational average of the naive estimate of C2.
When pooling=TRUE
(the default), the estimate of C1
is the ratio of the rotational averages of the numerator and
denominator which form the naive estimate of C2.
The result is a function object (class "fv"
).
If the argument Y
is given, it should be a pixel image
compatible with X
. An estimate of the spatial cross-covariance function
between X
and Y
will be computed.
If isotropic=TRUE
(the default), the result is a function value
table (object of class "fv"
) giving the estimated values of the
covariance function or spatial correlation function
for a sequence of values of the spatial lag
distance r
.
If isotropic=FALSE
, the result is a pixel image
(object of class "im"
) giving the estimated values of the
spatial covariance function or spatial correlation function
for a grid of values of the spatial lag vector.
imcov
, setcov
if(offline <- !interactive()) op <- spatstat.options(npixel=32) D <- density(cells) plot(spatcov(D)) if(offline) spatstat.options(op)
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